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SUAVE is a conceptual level aircraft design environment built with the ability to analyze and optimize both conventional and unconventional designs. This capability is achieved in part by allowing analysis information for aircraft to be drawn from multiple sources. Many other software tools for aircraft conceptual design rely on fixed empirical ...
Tutorials. These are tutorials for SUAVE. The tutorials will then help you get started with SUAVE. We recommend starting with the Boeing 737-800 tutorial and then moving to the Regional Jet Optimization or the Turbofan Network tutorial. These will allow you to explore the capabilities of SUAVE. If you haven't already downloaded the latest ...
Running the Tutorial File: Before jumping into the code, it is important to make sure that your installation is working properly. To do this, we start by running the tutorial file. Locate the tutorial file, titled "tut_mission_B737_800.py". If you are using an IDE, open the file there. Otherwise, navigate to the containing folder in the command ...
Open a command prompt, in a directory that you want to start the repository (for example in the SUAVE_Project folder), and run the git clone command. git clone <git url>. Now you should have the source code. Change directory into the trunk folder and run a developer installation command. python3 setup.py develop.
Simple Setup. Once you’ve downloaded the code and prepared the software requrements, you’re ready to install it into python! Download and extract the release archive. Open the directory SUAVE/trunk. Open a command prompt in that directory. Run this command: python3 setup.py install. If you are on a linux or mac, you may need to run. sudo ...
SUAVE methods discussed in previous publications.1 However, this framework may be further enhanced to include this. A. Link with SUAVE The overall tool-chain works as follows. The user inputs vehicle parameters and (if desired) mesh speci c parameters in the vehicle setup le in SUAVE, and the SU2 analysis method is added to the analysis setup.
2. Units_type set to 'SI' (default) or 'Imperial'. 3. Boolean for whether or not to compute fuselage finenesses (default = True). 4. Boolean for whether or not to use the scaling from OpenVSP (default = True). Outputs: Writes SUAVE fuselage, with these geometries: (all defaults are SI, but user may specify Imperial) Fuselages.Fuselage.
The Latest in Aerospace Design. This release has numerous changes. Unfortunately, some interfaces have been altered to support all these changes. We tried to make these interface alterations as user friendly and intuitive as possible. The next major release will be a 3.0 with significant changes. VLM: Control surfaces, sideslip, rotation rate ...
Documentation. SUAVE is fully documented through doxygen. However, some starter high level documentation is available on the left. We suggestion you read the high level information before jumping into the Doxygen based documentation. Download. Registration.
Basic eVTOL Analysis. This video shows one way to setup an eVTOL aircraft for basic analysis. This configuration was chosen to be dissimilar to existing eVTOL models, yet be able to highlight how to use SUAVE.
